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d93979b7
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Arnaud Dieumegard
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-- Company : CNES
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-- Author : Mickael Carl (CNES)
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-- Copyright : Copyright (c) CNES.
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-- Licensing : GNU GPLv3
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-- Version : V1.1
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-- Version history :
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-- V1 : 2015-04-13 : Mickael Carl (CNES): Creation
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-- V1.1 : 2016-05-03 : F.Manni (CNES) : add initialization trough reset for Raz, enable and Count_Length
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-- File name : STD_04000_good.vhd
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-- File Creation date : 2015-04-13
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-- Project name : VHDL Handbook CNES Edition
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-- Softwares : Microsoft Windows (Windows 7) - Editor (Eclipse + VEditor)
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-- Description : Handbook example: State machine case enumeration completion: good example
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--
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-- Limitations : This file is an example of the VHDL handbook made by CNES. It is a stub aimed at
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-- demonstrating good practices in VHDL and as such, its design is minimalistic.
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-- It is provided as is, without any warranty.
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-- This example is compliant with the Handbook version 1.
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--
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-------------------------------------------------------------------------------------------------
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-- Naming conventions:
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--
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-- i_Port: Input entity port
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-- o_Port: Output entity port
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-- b_Port: Bidirectional entity port
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-- g_My_Generic: Generic entity port
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--
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-- c_My_Constant: Constant definition
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-- t_My_Type: Custom type definition
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--
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-- My_Signal_n: Active low signal
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-- v_My_Variable: Variable
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-- sm_My_Signal: FSM signal
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-- pkg_Param: Element Param coming from a package
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--
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-- My_Signal_re: Rising edge detection of My_Signal
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-- My_Signal_fe: Falling edge detection of My_Signal
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-- My_Signal_rX: X times registered My_Signal signal
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--
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-- P_Process_Name: Process
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--
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library IEEE;
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use IEEE.std_logic_1164.all;
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use IEEE.numeric_std.all;
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entity STD_04000_good is
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port (
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i_Clock : in std_logic; -- Clock input
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i_Reset_n : in std_logic; -- Reset input
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i_Start : in std_logic; -- Start counter signal
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i_Stop : in std_logic -- Stop counter signal
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);
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end STD_04000_good;
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--CODE
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architecture Behavioral of STD_04000_good is
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constant c_Length : std_logic_vector(3 downto 0) := (others => '1'); -- How long we should count
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type t_state is (init, loading, enabled, finished); -- Enumerated type for state encoding
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signal sm_State : t_state; -- State signal
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signal Raz : std_logic; -- Load the length value and initialize the counter
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signal Enable : std_logic; -- Counter enable signal
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signal Count_Length : std_logic_vector(3 downto 0); -- Counter length for counting
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signal End_Count : std_logic; -- End signal of counter
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begin
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-- A simple counter with loading length and enable signal
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Counter : Counter
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port map (
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i_Clock => i_Clock,
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i_Reset_n => i_Reset_n,
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i_Raz => Raz,
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i_Enable => Enable,
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i_Length => Count_Length,
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o_Done => End_Count
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);
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-- FSM process controlling the counter. Start or stop it in function of the input (i_Start & i_Stop),
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-- load the length value, and wait for it to finish
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P_FSM : process(i_Reset_n, i_Clock)
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begin
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if (i_Reset_n = '0') then
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sm_State <= init;
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Raz <= '0';
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Enable <= '0';
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Count_Length <= (others=>'0');
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elsif (rising_edge(i_Clock)) then
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case sm_State is
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when init =>
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-- Set the length value
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Count_Length <= c_Length;
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sm_State <= loading;
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when loading =>
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-- Load the counter and initialize it
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Raz <= '1';
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sm_State <= enabled;
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when enabled =>
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-- Start or stop counting depending on inputs until it finishes
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Raz <= '0';
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if (End_Count = '0') then
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-- The counter has not finished, wait
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Enable <= i_Start xor not i_Stop;
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sm_State <= Enabled;
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else
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-- The counter has finished, nothing else to do
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Enable <= '0';
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sm_State <= finished;
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end if;
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when others =>
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sm_State <= init;
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end case;
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end if;
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end process;
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end Behavioral;
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--CODE
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